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(11) | EP 0 188 382 A2 |
| (12) | EUROPEAN PATENT APPLICATION |
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| (54) | Mailing machine |
| (57) Diagnostic test method and apparatus for testing subsystems in a mailing machine
(10). A test mode is initiated by activating a test key (102), Figure 2, which then
allows the control panel keyboard to be utilized to control diagnostic testing with
the control panel visual display (22) used for output of test results. A password
and test selection code are entered via the keyboard after activating the test mode
permitting selection of one of a plurality of tests which can be run without the use
of external equipment. |
[0001] This invention relates to mailing machines, and particularly although not exclusively to a method and apparatus for utilizing the control keyboard to run diagnostic tests on mailing machine sub-systems without the use of special equipment. The invention also relates to a method and apparatus for diagnostic testing of the contents of a programmable device in a mailing machine.
[0002] Mechanical mailing machines comprising automatic letter feeding apparatus and postage metering and printing apparatus are in wide use. These prior art machines utilize primarily mechanical means to control feeding of documents for printing of metered postage impressions at the proper location on the document. This requires mechanical control means for maintaining and achieving registration of the printed impression with respect to each document as well as providing for the feeding of documents of variable lengths and thicknesses. Such mechanical control mechanisms are often unreliable, require frequent maintenance, and are largely non-programmable and require periodic adjustment and parts replacement due to aging and wear of mechanical parts.
[0003] A substantial number of the problems associated with these prior art devices can be avoided by use of digital electronic control systems which provide increased reliability and provide programmability by use of programmable components. Such programmable devices allow simple updating of system software and the flexibility to compensate for wear of mechanical components but create a need for a simple diagnostic testing system. In the prior art such testing has required a technician using specialized equipment.
[0004] According to one aspect of the invention, apparatus for diagnostic testing of the subsystems of an automatic mailing machine comprises control panel means, having a plurality of control keys and a visual display, for controlling the mailing machine functions in a normal mode of operation, means for initiating a test mode in response to activating at least one selected key of the control panel means, and means are provided for performing a selected one of a plurality of diagnostic tests in response to initiation of the test mode.
[0005] According to another aspect of the invention, apparatus for diagnostic testing of the contents of a programmable device in an automatic mailing machine is provided comprising control panel means, having a plurality of control switches and a visual display, for controlling the mailing machine functions in a normal mode of operation, means for initiating a test mode in response to activating a selected key of the control panel means, and means are provided for summing the contents of the programmable device to obtain a total sum value responsive to initiation of the test mode. Alternatively, the total sum value may be displayed on a visual display, or means may be provided to compare the total sum value to a preselected check sum value and display an error indication in response to a difference.
[0006] The invention will be better understood by reference to the following description taken in conjunction with the accompanying illustrative drawings in which:
Figure 1 is an illustration of one example of a mailing machine in accordance with the invention;
Figure 2 is an illustration of an example of an embodiment of a control panel for the mailing machine shown in Figure 1;
Figure 3 is a detailed block diagram of a specific embodiment of electronic control circuitry for a mailing machine in accordance with the invention;
Figure 4 is a flow diagram of a specific diagnostic test initiation sequence according to the invention;
Figure 5A is a flow diagram of a specific display diagnostic test program;
Figure 5B is a flow diagram of a specific photosensor diagnostic test program;
Figure 5C is a flow diagram of a specific check sum diagnostic test program;
Figure 5D is a flow diagram of a specific motor diagnostic test program;
Figure 5E is a flow diagram of a specific letter solenoid diagnostic test program;
Figure 5F is a flow diagram of a specific data switch position test program.
[0007] Figure 1 is an illustration of a specific embodiment of a mailing machine 10 embodying the invention. The mailing machine 10 comprises numerous subsystems described hereinafter including a document feeder bin 12 for holding documents for an automatic document feeder 13 which feeds to a conventional belt and roller document transport mechanism (not shown) contained within a housing 14. The document feeder 13 and transport mechanism are driven in the conventional manner by an electric drive motor (not shown) also contained within the housing 10. An adjustment knob 16 permits adjustment of the feeder 13 to provide for a range of envelope thicknesses. The transport mechanism utilizes a transport belt (not shown) to move each document along a document deck 18 to a postage meter 20 which, when activated, prints a postage indicia on the document and seals the document envelope. A control panql 22, including control keys and a visual display, provides for operator control of the mailing machine functions. A meter select lever 24 permits the meter to be disabled so as to only seal envelopes without printing a postage indicia and further permits the.meter to be detached from the mailing machine. In the preferred embodiment, the postage meter is mechanical, but may also be electronic or partially electronic. A photo-sensor (not shown) located within the housing is utilized to detect the flow of documents through the transport mechanism.
[0008] Referring now to Figure 2, there is shown a mailing machine control panel 22 for providing operator control of mailing machine functions. The control panel 22 includes a test mode key 102 for activating a test mode, an ink key 104 for activating an ink solenoid to provide ink to the postage meter print mechanism, a start key 106 for starting the mailing machine, a stop key 108 for stopping the machine, and a clear key 110 for clearing a display 112. The display 112 is preferably a four digit light emitting diode (LED) display for displaying a piece count and diagnostic information. The test, ink and start keys each have an indicator light (e.g., an LED in the preferred embodiment), indicated by reference numerals 114, 116 and 118 respectively, to indicate to the operator when the associated key has been activated. A jam indicator 120 indicates when documents are jammed in the machine, and a power on indicator 122 indicates when power is applied to the mailing machine. In addition, a bank of switches (not shown) located under the control panel permit adjustment of the location of the printing of the postage indicia printed by the postage meter.
[0009] The mailing machine control panel 22 performs a dual function of providing control by an operator of mailing machine functions in. a normal operating mode, and in a test mode provides control of diagnostic test procedures (i.e., the control panel keys serve as code entry keys for initiating tests). When.an operator desires to test the mailing machine, the test key is depressed thereby switching the machine into a test mode. In the test mode the operator enters a password sequence (e.g., depressing the ink, stop, clear and ink keys in sequence) using the keys of the control panel thereby starting the test procedure. After entry of a valid password the display lights up with a sign-on message (e.g. HELP in the preferred embodiment) after which the operator can enter a test code using the various keys of the control panel to initiate a test. By this procedure the operator can start and monitor electrical or electromechanical devices of the mailing machine via the control panel using the LED display for output of information. To stop a test in progress the stop key is depressed which shuts down the test performed and displays "EN00" on the visual display, which indicates that the system is ready to initiate another diagnostic test. To exit from the diagnostic test mode, the test key is depressed which disables the test indicator light and switches the system back to the normal mode of operation.
[0010] Referring to Figure 3, there is shown a detailed block diagram of a specific embodiment of control circuitry 200 for a mailing machine according to the invention. A microcomputer 202 (e.g., an Intel 8031) provides the central processing capability for the system with its internal oscillator regulated by a crystal and capacitor network 201 and power-up reset provided by a capacitor 203. An electrically programmed read only memory (EPROM) 204 provides field programmable program memory for the microcomputer 202. This programmable device (EPROM) 204 is addressed by the microcomputer 202 via an 8 bit address coupled through a bus 208 to an 8 bit latch 210 and via a 4 bit bus 206 from the upper byte of the address port of the microcomputer 202, as shown. The EPROM 204 is enabled by the program store enable signal (PSEN) and the latch 210 is strobed by the address latch enable strobe (ALE). The addressed data from the EPROM 204 is coupled upon being strobed by the PSEN signal to a data bus 214. A bidirectional bus transceiver 212 provides buffering for passing data between the bus 208 and the data bus 214, as, shown, and is controlled by the PSEN signal and a read signal (RD) from the microcomputer 202. A chip enable decoder 218 is provided to generate enable signals to control several peripheral latches 228, 232 and buffer circuits 226, and is controlled by the microcomputer 202 via the RD signal, and a write strobe (WR) as well as by 4 secondary address lines coupled from the latch 210, as shown. A conventional watchdog timer 220 (e.g. a monostable multivibrator) retriggered periodically (e.g. every 150ms in the preferred embodiment) by the microcomputer 202 via a data line 221 is provided to generate watchdog signals which are coupled to the microcomputer external interrupt zero input (INTO), as well as to several latch circuits 228, 232, as shown. Thus, if the microcomputer 202 stops or hangs up, the watchdog timer interrupts the processor to allow a restart and inhibits the display and power latches 228, 232.
[0011] A letter sensor 222 (e.g., a photo-sensor) is provided for sensing the flow of documents through the mailing machine by generating an interrupt signal in response to detection of the leading edge of a document. This interrupt signal is coupled through a buffer 224 to the microcomputer external interrupt one input (INT1), as shown. In response to this interrupt, the microcomputer 202 waits for a fixed delay time (e.g. 40nis in the preferred embodiment) during which time it reads data from a bank of data switches 216 which determines a programmable delay. This delay is added to the fixed delay and after the total delay period the microcomputer 202 energizes a letter solenoid (not shown). The letter solenoid activates the postage meter 20 causing the postage indicia to be printed. The photo-sensor signal from the trailing edge of the document is used by the microcomputer 202 to prepare for the next leading edge. If no trailing edge occurs for 400ms, the processor generates a "jam" signal which activates the jam indicator 120. In addition to the letter solenoid, the microcomputer 202 controls an ink solenoid which supplies ink to the postage meter for 10 seconds in response to activation of the ink key 104. The signals for controlling these solenoids are coupled from the microcomputer 202 through the data bus 214 to a latch 228 and then through power buffers 230, as shown. in addition, some of the data coupled to the latch 228 is utilized to control the motor (not shown) which drives the document feeder and transport mechanism.
[0012] The switch bank 216 comprises a set of four switches (e.g., a DIP switch package in the preferred embodiment) which are coupled through a buffer 226 to the data bus 214, as shown, thereby providing binary coded switch data to the microcomputer 202 via the buses 214 and 208 and bus transceiver 212. This data is utilized by the microcomputer 202 to determine the amount of time delay between the sensing of the leading edge of a document through the transport mechanism of the mailing machine and the printing of the postage indicia on the document. Thus these selection switches permit an operator to adjust the delay and therefore control the indicia positioning. Since there are four switches configured for binary coding, there are a total of sixteen delay values selectable, with each value representing approximately one eighth of an inch shift (i.e., 2.5 ms delay) in the position of the printed indicia. In addition, a single line from a fifth switch in the bank of switches 216 is coupled to the EA input of the microcomputer 202 to provide the option of use of either an internal or an external read only memory.
[0013] The microcomputer 202 communicates with the control panel 22 via two paths: (1) a.6 bit data bus 236 and (2) a path through the latch 232 and buffer 234, as shown. The data bus 236 couples to a 3x3 keyboard matrix providing for input to the microcomputer 202 from a total of nine switches of which only five are presently used as described hereinbefore. In addition, 4 bits of data are coupled from the bus 214 through the latch 232 and buffers 234 to activate the test indicator light 114, the ink indicator light 116, the start indicator light 118, and the jam flow indicator light 120. Finally, the data DDATA on line 240 for display on the four digit LED display 112 is serially clocked into a set of display registers in the display by a DCLK signal on line 238.
[0014] Figure 4 is an illustration of a flow diagram of a specific diagnostic test initiation sequence according to the invention. The test initiation sequence begins with software operating in a normal mode as indicated at 300. At block 310 a test is performed to determine whether the test key has been depressed. If not, the system returns to the normal mode and continues in normal operation. If the test key has been depressed, the system waits for entry of a password and then a logic test is performed to determine whether a valid password has been entered as illustrated at 320. If a valid password has not been entered, the system will return to a normal mode of operation, as shown. If the valid password has been entered a sign-on message will be displayed on the LED display on the control panel, as indicated at block 330. The system then waits for entry of a test selection code after which a "valid code" logic test will be performed to determine if a proper test code has been entered as illustrated at 340. If the proper test code has not been entered program control passes to block 350 to determine whether the test key has been depressed, which results in exit from the test mode and return to the normal mode. If the test key has not been depressed then the system will return to block 340 to continue to monitor for a valid test code. If a valid test code has been entered the system proceeds to perform the test according to the test code entered as indicated at block 360 and monitors the stop key to determine if the test is to be stopped as indicated at block 370 (Figures 5A to 5F are flow diagrams of some suitable tests). If at block 370 the test is to be stopped the system will return control to block 360, as shown. If the stop button has been depressed the test will be stopped and the display will exhibit a stopped test indicator as shown at block 380 (e.g., "EN00" in the preferred embodiment). Program control then passes back to block 340 permitting exit from the test mode by depressing the test key or permitting another test to be performed by the entry of a valid test code.
[0015] There are numerous tests which can be implemented with the disclosed system. However, in the preferred embodiment, six tests have been implemented. A test of the LED display and LED indicator lights is initiated by depressing the ink key twice and then the start key (i.e., the test code for the display test in the preferred embodiment) which will initialize all segments of the LED display with a count of 0000 and turn all the LED indicators on simultaneously (see Figure 5A). The test will then proceed by successively turning off each LED and incrementing all four digits of the display until each LED has been turned off and the display reads 4444. The LEDs are then turned on again, the display incremented and the procedure repeated until the display reads 9999. This entire procedure continues to repeat until the stop key is depressed.
[0016] An optical sensor test is initiated by depressing the ink, stop, and start keys after first lifting the document transport belt to permit access to the photosensors (see Figure SB). The operator may then test the sensor by alternately inserting a document to block the sensor which will cause 0000 to be displayed, and removing the document from the document deck which will cause 1111 to be displayed. The stop key is depressed to end the test.
[0017] A check sum test is initiated by depressing the stop key twice followed by the start key which initiates a test which will display the sum of the contents of the PROM in hexadecimal form as the two least significant digits of the display with SU displayed in the two most significant digit positions. Figure 5C illustrates a flow diagram of a program for performing the check sum test. This program would be performed at block 360 of Figure 4. The program is entered at block 400 from the point following block 340 of Figure 4 in the event that a valid test code has been entered. At block 400 an accumulator labeled SUM is set to zero and the address pointer is set to zero. Program flow then proceeds to block 410 where the data bit at the address of the address pointer is fetched from memory and then, as indicated at 420, this data bit is added to the value of the accumulator SUM to provide a new value of SUM. After the new SUM value has been calculated, program flow proceeds to block 430 where the address pointer is incremented and then the address pointer is tested as illustrated at 440, to determine if the most significant bit is equal to one. If the most significant bit is not equal to one, indicating that the full memory has not been summed, program flow proceeds back to block 410 where the process is repeated. However, if the most significant bit of the address pointer is equal to one, indicating that the summing process has been completed, program flow proceeds to block 450 where the SUM value is formatted for display on the LED display 112. The sum is then displayed as a hexadecimal value on the LED display as indicated at 460 and program control then passes to block 370 as indicated in Figure 4. In an alternative approach, an expected value of the SUM is stored in memory and the calculated SUM is compared to the expected value. If a difference exists an error message is displayed, and if no difference is found, a message indicating a correct SUM is displayed.
[0018] A motor-on test is initiated by depressing the ink, clear, and start keys to initiate a test which runs the motor until the stop key is depressed (see Figure 5D). A letter solenoid on/off test is initiated by first moving the meter select lever from the operate to the seal only position (i.e., disabling the meter) and then depressing the clear, ink and start keys (see Figure 5E). The letter solenoid will be energized and deenergized every second verifying operation of the solenoid. A data switch position test is initiated by depressing the clear, stop and start keys. The display will then alternately display "POS=" (meaning "position equals") followed by the data value of the switch position in hexadecimal form (see Figure 5F). Each test can be stopped by depressing the stop key.
[0019] It will be seen that there has been particularly disclosed herein:-
an improved system for diagnostic checking of mailing machine subsystems;
an improved diagnostic checking system for subsystems in a mailing machine utilizing the mailing machine's control panel keyboard and display to operate and monitor mailing machine subsystems to permit testing without external equipment;
an improved system for diagnostic checking of proper function of programmable devices in a mailing machine; and
an improved diagnostic checking system for a programmable device in a mailing machine which is simple to utilize and which can operate in real time without requiring special equipment.
[0020] A specific embodiment of the novel system for diagnostic testing of a mailing machine has been described for the purposes of illustrating one manner in which the invention may be made and used. It should be understood that implementation of other variations and modifications of the invention in its various aspects will be apparent to those skilled in the art, and that the invention is not limited by the specific embodiment described. It is therefore contemplated that the invention encompasses any and all obvious modifications, variations or equivalents of the invention.
1. A method of performing diagnostic testing in an automatic mailing machine having
a plurality of subsystems and a control panel which includes a visual display and
plurality of keys for control of the mailing machine's functions during a normal mode
of operation, the method comprising the steps of:-
initiating a test mode in response to activating a predetermined key on the control panel; and
performing a selected one of a plurality of diagnostic tests in response to initiation of the test mode.
2. The method of claim 1 further comprising the step of generating a password signal
in response to activating a predetermined sequence of control panel keys and wherein
the selected diagnostic test is performed in response to initiation of the test mode
and generation of the pass word signal.
3. The method of claim 2 further comprising the step of generating a test code signal
in response to activating a predetermined sequence of control panel keys and wherein
the selected diagnostic test is performed only in response to initiation of the test
mode and generation of the password signal and the test code signal.
4. The method of claim 2 wherein one of the plurality of diagnostic tests comprises
the steps of activating a predetermined subsystem of the mailing machine and deactivating
the subsystem in response to activation of a stop key, and displaying an end of test
indication on the visual display in response to activation of the stop key.
5. The method of claim 2 wherein one of the plurality of diagnostic tests comprises
the steps of initializing the visual display with a predetermined set of characters,
incrementing the visual display through a predetermined sequence of characters to
test the visual display and repeating the sequence until activation of a stop key.
6.. The method of Claim 2 wherein the mailing machine includes a photo-sensor and
wherein one of the plurality of diagnostic tests comprises the steps of displaying
a preselected set of characters on the visual display in response to blocking the
photo-sensor, displaying a second preselected set of characters on the visual display
in response to clearing the photo-sensor, and stopping the test in response to activation
of a stop key.
7. The method of Claim 2 wherein the mailing machine includes a postage meter activated
by a letter solenoid and wherein one of the plurality of diagnostic tests is a letter
solenoid test comprising the steps of extending the solenoid for a predetermined time
period, retracting the solenoid for a predetermined time period and repeating the
steps of extending and retracting until a stop key is depressed.
8 The method of Claim 7 further comprising the step of disabling the postage meter
prior to activating the letter solenoid test.
9. Apparatus for diagnostic testing of the subsystems of an automatic mailing machine,
the.apparatus comprising:
control panel means, having a plurality of control keys and a visual display, for controlling the mailing machine functions during a normal mode of operation:
means for initiating a test mode in response to activating at least one selected key of the control panel means; and
means for performing a selected one of a plurality of diagnostic tests in response to initiation of the test mode.
10. The apparatus of Claim 9 further comprising means for selecting one of the plurality
of tests responsive to activation of a test code sequence of control panel means keys
unique to the selected test.
11. The apparatus of Claim 10 further comprising means for inhibiting the means for
performing and the means for selecting in the absence of activation of a predetermined
password sequence of control panel keys.
12. The apparatus of Claim io wherein the means for performing further comprises means
responsive to a unique test code sequence for activating a predetermined subsystem
of the mailing machine and for deactivating the subsystem in response to activation
of a stop key.
13. The apparatus of Claim 10 wherein the means for performing further comprises means
responsive to a unique test code sequence,for initializing the visual display with
a predetermined set of characters and for incrementing the visual display through
a predetermined sequence of characters.
14. The apparatus of Claim 10 wherein the mailing machine includes a photo-sensor
and wherein the means for performing further comprises means responsive to a unique
test code sequence for displaying a preselected set of characters on the visual display
in response to blocking the photo-sensor and for displaying a second preselected set
of characters on the visual display in response to clearing the photo-sensor.
15. The apparatus of Claim 10 wherein the mailing machine includes a letter solenoid and wherein the means for
performing further comprises means, responsive to a unique test code sequence, for
extending the solenoid for a predetermined time period and retracting the solenoid
for a predetermined time period.
16. A mailing machine for use with a postage meter having a plurality of subsystems,
said machine comprising:
document holding means for holding a plurality of documents for processing by the mailing machine;
document feeder means for feeding each document from the document holding means into the mailing machine;
document transport means for transporting each document from the document feeder means to a postage meter;
control panel means having a plurality of control keys and a visual display for permitting operator control of the mailing machine functions in a normal mode of operation;
means for initiating a test mode in response to activating at least one selected key of the control panel means; and
means for performing a selected one of a plurality of diagnostic tests responsive to initiation of the test mode.
17. A method of performing a diagnostic test on the contents of a programmable device
in an automatic mailing machine having a control panel which includes a visual display
and plurality of keys including a test key for control of the mailing machine's functions,
during a normal mode of operation, the method comprising the steps of:
switching to a test mode in response to activating the test key on the control panel;
summing the contents of the programmable device to obtain a total sum value in response to switching to the test mode; and
displaying the total sum value on the control panel display.
18. The method of claim 1 or 17 further comprising the step of transforming the control
panel to function as a test selection panel in response to switching to, or initiation
of, the test mode.
19. The method of claim 18 when dependent on claim 17 further comprising the step
of generating a password signal in response to activating a predetermined sequence
of control panel keys and wherein the step of summing comprises summing the contents
of the programmable device only in response to switching to the test mode and generation
of the pass word signal.
20. The method of claim 19 when dependent on claim 18 further comprising the step
of generating a test code signal in response to activating a predetermined sequence
of control panel keys and wherein the step of summing comprises summing the contents
of the programmable device only in response to switching to the test mode and generating
the password signal and the test code signal.
21. The method of claim 17 further comprising the step of comparing the total sum
value to a predetermined check value and generating an error signal in response to
a difference.
22. The method of claim 17 further comprising the step of maintaining the total sum
value on the control panel display until activation of a stop key and clearing the
display in response to activation of the stop key.
23. Apparatus for diagnostic testing of the contents of a programmable device in an
automatic mailing machine, the apparatus comprising:
control panel means, having a plurality of control keys and a visual display, for controlling the mailing machine functions in a normal mode of operation;
means for initiating a test mode in response to activating a selected key of the control panel means;
means for summing the contents of the programmable device to obtain a total sum value responsive to initiation of the test mode.
24. The apparatus of claim 23 further comprising means for displaying the total sum
value on the visual display.
25. The apparatus of claim 9 or 24 further comprising converting means for converting
the control keys of the control panel to code entry keys in response to initiating
the test mode and means for monitoring the code entry keys to detect activation of
a predetermined password sequence and for inhibiting summing, or inhibiting means
for performing a selected test as the case may be, in the absence of detection of
the password sequence.
26. The apparatus of claim 25 when dependent on claim 24 further comprising means
for monitoring the code entry keys to detect activation of a predetermined test code
sequence of code entry keys, and means for inhibiting summing in the absence of detection
of the test code sequence.
27. The apparatus of claim 23 further comprising means for storing a preselected sum
value, means for comparing the total sum value to the preselected sum value, and means
for displaying an error indication on the visual display in response to a difference
between the total sum value and the preselected sum v alu e.
28. The apparatus of claim 25 further comprising means for returning to the normal
mode of operation in response to detection of an invalid password sequence.
29. The apparatus of claim 25 further comprising means for storing a preselected sum
value, means for comparing the total sum value to the preselected sum value, and means
for displaying an error indication on the visual display in response to a difference
between the total sum value and the preselected sum value.
30. The apparatus of claim 24 wherein the programmable device is a read only memory.
31. A mailing machine for use with a postage meter including a programmable device,
said machine comprising:
document holding means for holding a plurality of documents for processing by the mailing machine;
document feeder means for feeding each document from the document holding means into the mailing machine;
document transport means for transporting each document from the document feeder means to the postage meter;
control panel means having a plurality of control keys and a visual display for permitting operator control of the mailing machine functions in a normal mode of operation;
means for initiating a test mode in response to activating a selected key of the control panel means; and
means for summing the contents of the programmable device to obtain a total sum value responsive to initiation of the test mode.
32. The mailing machine of claim 31 further comprising means for displaying the total
sum value on the visual display.
33. The mailing machine of claim 16 or 31 further comprising converting means fpr
converting the control keys of the control panel to code entry keys in response to
initiating the test mode and means for monitoring the code entry keys to detect activation
of a predetermined password sequence and for inhibiting summing gr inhibiting the
means for performing, as the case may be, in the absence of detection of the password
sequence.
34. The mailing machine of claim 33 when dependent on claim 16 further comprising
means for monitoring the code entry keys to detect activation of a predetermined test
code sequence of code entry keys, and means for inhibiting the means for performing
in the absence of detection of the test code sequence.
. 35. The mailing machine of Claim 34 wherein the postage meter is a detachable mechanical meter activated by a letter
solenoid and wherein the means for performing further comprises means responsive to
a unique test code sequence for extending the solenoid for a predetermined time period
and retracting the solenoid for a predetermined time period.
36. The mailing machine of Claim 34. wherein the means for performing further comprises
means responsive to a unique test code sequence for activating a predetermined subsystem
of the mailing machine and for deactivating the subsystem in response to activation
of a stop key.
37. The mailing machine of Claim 34 wherein the means for performing further comprises
means responsive to a unique test code sequence for initializing the visual display
with a predetermined set of characters and for incrementing the visual display through
a predetermined sequence of characters.
38. The mailing machine of Claim 34 wherein said mailing machine includes a photo-sensor
wherein the means for performing further comprises means responsive to a unique test
code sequence for displaying a preselected set of characters on the visual display
in response to blocking the photo-sensor and for displaying a second preselected set
of characters on the visual display in response to clearing the photo-sensor.
39. The mailing machine of claim 33 further comprising means for monitoring the code
entry keys to detect activation of a predetermined test code sequence of code entry
keys, and means for inhibiting summing, or inhibiting the means for performing as
the case may be, in the absence of detection of the test code sequence.
40. The mailing machine of claim 31 further comprising means for storing a preselected
sum value, means for comparing the total sum value to the preselected sum value, and
means for displaying an error indication on the visual display in response to a difference
between the total sum value and the preselected sum value.
41. The mailing machine of claim 33 further comprising means for returning to the
normal mode of operation in response to detection of an invalid password sequence.